How eukaryotic algae can adapt to the Spain's Rio Tinto: a neo‐Darwinian proposal for rapid adaptation to an extremely hostile ecosystem
E Costas, A Flores‐Moya, N Perdigones… - New …, 2007 - Wiley Online Library
Microalgae contributed 60% of the total biomass in the extremely hostile (pH 2 and metal‐
rich waters) environment of Rio Tinto (which is used as a model for the astrobiology of Mars) …
rich waters) environment of Rio Tinto (which is used as a model for the astrobiology of Mars) …
How eukaryotic algae can adapt to the Spain's Rio Tinto: a neo-Darwinian proposal for rapid adaptation to an extremely hostile ecosystem
E Costas, A Flores-Moya, N Perdigones… - The New …, 2007 - pubmed.ncbi.nlm.nih.gov
Microalgae contributed 60% of the total biomass in the extremely hostile (pH 2 and metal-
rich waters) environment of Rio Tinto (which is used as a model for the astrobiology of Mars) …
rich waters) environment of Rio Tinto (which is used as a model for the astrobiology of Mars) …
How eukaryotic algae can adapt to the Spain's Rio Tinto: a neo-Darwinian proposal for rapid adaptation to an extremely hostile ecosystem.
E Costas, A Flores-Moya, N Perdigones… - The New …, 2007 - europepmc.org
Microalgae contributed 60% of the total biomass in the extremely hostile (pH 2 and metal-
rich waters) environment of Rio Tinto (which is used as a model for the astrobiology of Mars) …
rich waters) environment of Rio Tinto (which is used as a model for the astrobiology of Mars) …
[引用][C] How eukaryotic algae can adapt to the Spain's Rio Tinto: a neo-Darwinian proposal for rapid adaptation to an extremely hostile ecosystem
E COSTAS - New Phytol., 2007 - cir.nii.ac.jp
How eukaryotic algae can adapt to the Spain's Rio Tinto : a neo-Darwinian proposal for
rapid adaptation to an extremely hostile ecosystem | CiNii Research CiNii 国立情報学研究所 …
rapid adaptation to an extremely hostile ecosystem | CiNii Research CiNii 国立情報学研究所 …